Photosynthesis Lesson 2. Learning Objectives Understand oxidation and reduction. Understand how...
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Transcript of Photosynthesis Lesson 2. Learning Objectives Understand oxidation and reduction. Understand how...
![Page 1: Photosynthesis Lesson 2. Learning Objectives Understand oxidation and reduction. Understand how light energy is converted to chemical energy. Understand.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649d8a5503460f94a6fd95/html5/thumbnails/1.jpg)
PhotosynthesisLesson 2
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Learning Objectives Understand oxidation and reduction. Understand how light energy is
converted to chemical energy. Understand why water is necessary in
the light-dependent stage of photosynthesis.
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Success Criteria State where oxidation and reduction
occurs in the light-dependent stage. Explain how ATP is produced. Explain how NADP is produced. Explain why the products of the light-
dependent stage are important.
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Starter
Name A, B, C and D
A – Stroma/Ribosome could be hard to tell)
B – Envelope/Inner/Outer Membrane
C – Thylakoid/Lamella
D – Granum
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Oxidation & Reduction
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Redox Reactions In the light-dependent stage of photosynthesis, the
majority of reactions involve molecules being oxidised and reduced.
Oxidation and reduction can be explained in three ways:
Oxidation and reduction always occur together.
OXIDATION
Gain of OXYGEN
Loss of HYDROGEN
Loss of ELECTRONS
REDUCTION
Loss of OXYGEN
Gain of HYDROGEN
Gain of ELECTRONS
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Light Dependent Reactions
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The light-dependent stage of photosynthesis – key facts
Takes place in the thylakoids Light energy excites electrons in chlorophyll Some of this energy is used in the photolysis of water
protons, electrons, hydrogen Protons and electrons accepted by NAPH, it becomes....
Reduced or oxidised? Energy from excited electrons generates ATP through
photophosphorylation Photophosphorylation involves transfer of electrons
along an ETC in the thylakoids. The electrons lose energy at each stage.
This energy is used to combine phosphate with ADP.
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LDR Outline This stage of photosynthesis occurs on the thylakoid
membranes, unlike the light-independent reaction (which occurs in the stroma).
The reaction involves the capture of light, whose energy is used for three purposes:
Production of ATP in the presence of light is known as photophosphorylation.
There are two types: Cyclic and Non-Cyclic.
To combine ADP and an Pi (inorganic phosphate) to form ATP.
To reduce the coenzyme NADP.
To split water (photolysis)
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chlorophyll
ADP Pi
e- e-
e l e
c t
r o
n
e n
e r
g y
l e
v
e l
energy
energy
H2OH+
O2
ATP!
e-
NADPreduced
NADP
by-product
ATP!
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Explanation of Animation…
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Photolysis of Water Light energy is able to split water molecules. This ‘photolysis’ yields the following products:
The electrons produced are used to reduce a chlorophyll molecule – These will be excited by light.
The oxygen produced is a by-product which is either used in respiration, or leaves the cell.
The proton (hydrogen ion) is very important though…
H2O
H+
O2e-
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Continued… First, the protons are used to generate ATP by chemiosmosis. They do this by diffusing across the thylakoid membrane
through membrane proteins associated with the enzyme ATP synthase.
The protons will eventually be accepted by NADP (becoming reduced NADP).
These molecules are used in the Light Independent Reactions.
ATPATPATP
H+
H+
H+
These go off to reduce NADP
Non-cyclicphoto-
phosphorylation
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Reducing NADP NADP is also the final acceptor of the pair of electrons
released by chlorophyll.
Gaining electrons and protons causes the NADP to become reduced.
Along with the ATP formed earlier, reduced NADP is vital for the next stage of photosynthesis – the light-independent stage.
e- e-
H+
NADPreduced
NADP
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e- e-chlorophyll
Making ATP Light also strikes chlorophyll, boosting a pair of electrons to
a higher energy level. These excited electrons actually leave the chlorophyll
molecule and are taken up by an electron carrier. This is the first of a sequence of redox reactions.
Next, the electrons are passed along a series electron carriers, in a stage known as the electron-transport chain.
oxidised reduced
e- e-
D E C R E A S I N G E N E R G Y L E V E L
Energy is released each time the electrons pass from carrier to
carrier.
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Continued… The energy that is released as the electrons pass down the
transfer chain, is used to synthesise ATP.
Again, this is a form of photophosphorylation.
ADP + Pi ATP
Note:Because the electrons eventually get taken up
by NADP, they cannot be reused by the chlorophyll.
Therefore, the ATP produced by their route down the electron transport chain is described as
NON-CYCLIC.
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18 of 36 © Boardworks Ltd 2009
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19 of 36 © Boardworks Ltd 2009
Location of the reaction
The light-dependent reaction takes place in the thylakoid membranes of the chloroplasts.
Situated in these membranes are light-harvesting systems called photosystems. There are two types, photosystem I (PSI) and photosystem II (PSII). Both have chlorophyll at their centres.
chlorophyll
light
photosystem
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20 of 36 © Boardworks Ltd 2009
Light-dependent reaction
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Light-dependent reaction: summary
Cyclic photophosphorylation
Non-cyclic photophosphorylation
photolysis
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Products of the light-dependent reaction
Products of the light-dependent reaction that pass into the light-independent reaction:
Products of the light-dependent reaction that leave the plant:
Products of the light-dependent reaction that are re-used in another part of the light-dependent reaction:
reduced NADP
ATP
oxygen
H+ ions
electrons
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23 of 36 © Boardworks Ltd 2009
Summary Table
Reaction in LDR Cyclic Phosphorylation
Non-cyclic phosphorylation
Photolysis
Location in chloroplast
Thylakoid membrane
Thylakoid membrane
Thylakoid membrane
Photosystem involved
1 1 and 2 no
Products ATP only ATP and reduced NADP
Oxygen, hydrogen ions and electrons
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24 of 36 © Boardworks Ltd 2009
How much do you know?
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Plenary
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Answer
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Learning Objectives Understand oxidation and reduction. Understand how light energy is
converted to chemical energy. Understand why water is necessary in
the light-dependent stage of photosynthesis.
![Page 28: Photosynthesis Lesson 2. Learning Objectives Understand oxidation and reduction. Understand how light energy is converted to chemical energy. Understand.](https://reader036.fdocuments.in/reader036/viewer/2022062516/56649d8a5503460f94a6fd95/html5/thumbnails/28.jpg)
Success Criteria State where oxidation and reduction
occurs in the light-dependent stage. Explain how ATP is produced. Explain how NADP is produced. Explain why the products of the light-
dependent stage are important.